DE2129083A1 - Pressure shock absorber - Google Patents

Description

DR. INO. B. HOFFMANN DIPL. ING. W. EITLE DR. RKK. NAT. K. HOFFMAXA

PATKNTANWÄ XTK D-8000 MÖNCHEN 81ARABELLASTRASSE 4 TELEPHONE (0811) 911087

Hydril Company ^ Los Angeles, Calif./USA

Pressure s t ο damper

The invention relates to a pressure shock absorber having a container with a hollow interior and a main inlet for a first surge exposed fluid, one within the container and the same into a first for receiving the first fluid and a second for receiving a second below Pressurized fluid suitable zone dividing bladder, in particular the construction of pressure shock absorber assemblies, which facilitate the replacement of the flexible bladders used therein.

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Pressure shock absorbers are generally used in supply lines used, which carry fluid exposed to pressure surges. E.g. a piston pump can provide hydraulic pressure for a hydraulically driven tool, where pressure surges are caused by the reciprocation of the piston appear. Such pressure shock absorbers typically have flexible bladders which form a zone of compressible fluid from the fluid exposed to pressure surges. When the bubble is in the damper chamber or moved back and forth in the container, the pressure surges are dampened. It turned out that the blister wear from time to time due to the constant stress and strain of going back and forth requires changing the bladder. While changing the bladder is not difficult to do, However, the difficulty of easy-to-use and extremely reliable devices for reintroduction can be overcome compressible fluid behind the newly used Bubble and seal leakage of fluid well during extended use of the surge absorber to create in this area not easy to solve. In view of this, the constant oscillation tends to be more well known Pressure shock absorbers prevent the compressible fluid from leaking through the filling valves during operation support financially.

Accordingly, it is an object of the invention to provide a simple, extremely reliable pressure shock absorber create, which overcomes the difficulties described above as well as the others encountered in use.

The invention is intended to provide a pressure shock absorber structure

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create, which facilitates the replacement of the bladder and in this way easy reinsertion compressible Allows fluid behind the bladder during use or the inlet opening for the Seals fluid during normal use of the shock absorber and also enables the compressible fluid can get into the container after changing the bladder during filling. In this regard, the filling opening and the associated structure should be designed so that a multiple Function of the bladder is promoted.

According to the invention, these goals are achieved by that the container has an inlet for the second fluid which is arranged to be of the bladder for sealing the connection between the inlet and the second zone corresponding to that through the first Fluid pressure applied to the bladder is overlapped. As can be seen, the pressure of the second fluid can be brought into double overlap with the inlet if the pressure shock absorber does not first fluid pressure is obtained, whereby a good seal of the inlet opening is achieved under all conditions will.

Furthermore, an insert is created with the invention, which is received in a bore in the container wall and contains a conduit which connects to the inlet so that the second fluid can enter the container. The use has a the bladder supporting surface near the inlet.

In addition, the insert can have a head carrying the bladder, which is located in a countersunk hole in the

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BATH ORIGINAL

container wall is arranged on the inside so that it is supported on the wall and prevents the insert from being shifted outwards with absolute certainty. In addition, a plug can be arranged in the bore outside the insert in order to act as a second device good to block the leakage of the second fluid from the second zone. ·

Further features and advantages include the provision of a bladder neck with a releasable loading. attachment to the container. A detachable plate, which forms part of the container is provided with the main inlet for the first fluid and holds the Bladder neck detachably attached in the container and detachable and replaceable devices such as a spot weld block the unscrewing of the plate from the neck of the container.

These and other features and advantages of the invention, as well as the details, will be drawn upon an exemplary embodiment explained in more detail for better understanding. Show it:

1 shows a section through the pressure shock absorber according to the invention,

Figure 2 is a view from the inlet end of the pressure shock absorber of Figs. 1 and

Fig. 3 is an enlarged section through the structure of the Inlet for the compressible fluid of the pressure shock absorber of FIG. 1.

The pressure shock absorber 10 shown in Fig. 1 has

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a container 11, which is generally spherical as shown, and a hollow interior 12 and a main inlet 13 for the first pulsed fluid. Only by way of illustration, the main inlet is connected at 15 to a pressure line 14 which is under pressure set fluid from a surge source such as a compressor 16 to a pressurized one Fluid operated tool 17 .guides. The latter drives a drive 18 and pushes the used one Fluid at 19 to a reservoir 19a. The tool 17 can also create pressure surges which reduce wear and tear and maintenance of the Fluid system must be damped.

A flexible bladder 20 extends within the interior 12 of the container and divides it into a first zone 21 for receiving the first fluid and a second zone 22 for receiving a second compressible, pressurized fluid. As a result, the bladder flexes to and from the zone 22 when the pressure surges of the first fluid are transmitted to the zone 21 to absorb and dampen the pressure surges in the pressure line Ik , the compressible fluid attenuating the pressure surges passing through the bladder transferred to zone 22.

The container 10 also has an additional inlet 23 for the second fluid which is so arranged is that it is used by the bladder to seal the connection between the inlet and the second zone 22 as a result of the pressure exerted by the first fluid against the bladder during operation is superimposed. With the one shown An example is the additional inlet shown at 23 between a counterbore 24 and the head 25a

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an insert 25 formed, whereby the inlet 23 a has a narrow ring shape. The head 25a creates at 26 a surface supporting the bladder so that the bladder is closed by the fluid pressure within the container pressed into the inlet 23 no appreciable amount will. As a result, the bubble wear at the point of the inlet is not noticeable. At the same time is the total cross-section of the inlet 23 for the fluid sufficient to allow rapid filling with the second Fluid from source 27, into zone 22, via path 28 between the bladder and the inner wall of the container, e.g. after changing the bladder.

The insert 25 has a shaft 25b, which a screw connection at 30 with the hole 3I in the part 32 of the container wall. The stake is from the inside of the container into the bore 3I screwed and once the head 25a of the insert on the stepped shoulder 32 is applied, is further movement of the Use blocked to the outside for safety. The insert includes a conduit 33 and a conduit at one end Cross line 34 to carry the second fluid through the Inlet 23 and then pass into the inner zone 22 to leave as it was described. A solid plug 35 can at 36 in the bore 37 for additional Safety can be screwed radially inwards. When the source 27 via the valve 38 with the Zone 22 is to be connected, the plug 35 can be removed.

Fig. 1 shows the bladder 20 as it is releasably attached with its neck 40 in the container. For this purpose, the container can have a detachable element, such as a plate ² U.

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have a screw connection at 42 to the neck 43 of the container, secured around the neck of the bladder
to keep. The plate abuts against a shoulder of the container when the enlarged portion 40a of the neck
the bladder fills a countersunk hole 45 in the approach of the container and is held in this. Holes 46 in
the plate allow a wrench to be attached to the latter to loosen or attach it. Note that the plate is large enough to allow easy removal of the bubble
enable the approach of the container and also the screwing of the insert 25 into the bore 31 from the inside of the container.

A small one that bridges the plate 4l and the extension 4j5 Weld point 50 normally blocks plate 41 from being unscrewed from the container. If that When changing the bladder is required, the spot weld is removed to allow unscrewing. Of the The spot weld can easily be reattached after replacing the bladder.

The dashed line 20a denotes the position of the bladder at the double overlap of the inlet 23 when the main inlet 13 is not receiving any fluid pressure from the line 14. At this point in time, the pressure in the zone 22 presses the middle part 51 of the bladder, which carries a metal insert 52, into the layer 51a by the pressure in the zone 22, so that it is at the
Cone 53 is applied and the main inlet 13 closes.
The pressure in the zone 22 then presses the overlapping portions 20a and 20b of the bladder tightly against the inlet 23 and seals this opening when the plug 35
should be removed.

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Claims (1)

Claims Pressure shock absorber with a container with a hollow interior and a main inlet for a first pressure surge exposed fluid, one within the container and the same into a first for receiving the first fluid and a second for receiving a second one under pressure Fluid zone dividing bladder, characterized in that the container has an inlet for the second fluid arranged to be removed from the bladder for sealing the connection between the inlet and the second zone corresponding to that through the first Fluid pressure applied to the bladder is overlapped. 2. Pressure shock absorber according to claim 2, characterized in that the container has a one Has bore containing wall and an insert which is arranged in the bore and a conduit for connection to the inlet for passing the second fluid therethrough, the insert has a bladder supporting surface near the inlet. J5. Pressure shock absorber according to claim 2, characterized in that the bore is a countersunk bore has on the inside of the wall, the insert has a head arranged in the counterbore, to withstand the outward displacement of the insert caused by the pressure. ο 10 9851/1322 4. Pressure shock absorber according to claim 3 * characterized in that the inlet between the Head and the counterbore is formed. 5 · Pressure shock absorber according to claim J5 or 4, characterized characterized in that the insert has a thread extending outward from the head having in the bore connected to the container shaft. 6. Pressure shock absorber according to one of claims 2 to 5 * characterized in that a plug is arranged in the bore outside the insert. 7 · Pressure shock absorber according to one of the preceding claims, characterized in that the Bladder has a neck releasably secured in the container. 8. Pressure shock absorber according to claim 7> characterized in that the container has a Having the main inlet and the neck of the bladder releasably securing in the container releasable plate. 9. Pressure shock absorber according to claim 8, characterized in that the container has an approach for releasably securing the neck of the bladder and the plate. 10. Pressure shock absorber according to claim 9 *, characterized in that the plate and the approach of the container has a screw connection and removable means for blocking the unscrewing of the Have screw connection. - 10 109851/1322 - ίο - 11. Pressure shock absorber according to claim 10, characterized in that the devices consist of a removable weld. 12. Pressure shock absorber according to one of the preceding claims, characterized in that a pneumatic tool having an air pressure supply line in communication with the main inlet stands. 13 · Pressure shock absorber according to one of the preceding claims, characterized in that the bladder is passed through the second fluid in the second zone can be urged into a position double-overlapping the second inlet. 14. Pressure shock absorber according to claim 13, characterized in that the bladder has a neck area and an insert carried by the bladder for closing off the neck when the bladder has the second inlet double overlapped. 109851/1322 Lee rs'e i t e